Weiand Small Block - Pt. 25: Ramming Power

Who Says You Can't Add Torque With a Hi Ram?

It's been a long time since Danger Mouse (DM) has seen gains this big with only one bolt-on, well, ok maybe three bolt-ons if you count both carbs and the intake. Some of the coolest things about this month's power gains were that the engine didn't have to be revved any higher to get there-in fact, peak power came in at a lower rpm-and, along with the torque gains, there was a tremendous increase in mid-upper rpm range horsepower as well. DM did lose 5 hp at 6,800 rpm, but we'd gladly accept 25 more hp at 5,400 and 32 extra ft-lb of torque at 4,000 rpm any day!

So what made this month's extra power? A part that's not typically attributed to torque gains, due to its faulty, ancient reputation. The Weiand Hi Ram, (a.k.a. Tunnel Ram in some circles) has been around since the days of the Flat head and it's the sole reason we made so much more torque this month. In fact, this month's test revealed the most naturally aspirated torque DM has ever seen! And any 355-cid small-block that can make over 480 ft-lb of torque on pump gas, without a power-adder, is a serious force to be reckoned with.

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Installing the Weiand PN 1984 Hi Ram was easy. Getting the side-mounted, dual-carb linkage to work correctly was another issue. Here, we had to cut off the bottom half of both throttle arms to clear the manifold at WOT. Other than that, the rest was easy.

Hi Ramming TechnologyIt used to be that Hi Rams were considered a high-rpm-only piece. But, what a Hi Ram actually does is simply "ram" the air and fuel into the cylinders, packing in more mixture than a low-rise manifold could. In days of old, the Hi Ram had a pretty nasty reputation as a temperamental part that could not be tamed for the street. But that's more likely to do with the fact that the Hi Ram was developed long before really good cylinder heads were available to average user. And without good breathing heads, the Hi Rams kind of lost their effect.

Also, carburetors have never been better than they are today and Holley's twin HP650s we ran worked perfect right out of the box, which couldn't be said the same decades ago. The fuel curve was dynamite and we didn't need to touch the carbs all day! Setting up the side-mounted, dual-carb linkage was a bit of a challenge, but after just a few checkout pulls on the dyno, we got it completely dialed in. None of this is to say that our day did not have its share of problems, one of which really ticked us off, until we found and corrected it. We've told Weiand about the problem and are sure that it'll be fixed by the time you read this story, so it's not something you'll have to worry about.

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There was an obvious mismatch between the top and bottom halves of the Weiand Hi Ram, as well as a mismatch to the Edelbrock Victor Jr. heads. But the power and torque gains we got made the mismatch irrelevant.

There's Probably More Power In ThereTwo things occurred to us while this month's test was going down. One was that we had the wrong cam needed to increase top-end power. The other was that we should've port-matched the Hi Ram for maximum effect. Our first problem is easily cured with another cam that we plan to test soon. It might lose a little torque, but should give us more top-end, and since we've already found lots of torque why not try to find some extra horsepower?

However, port matching would take us away from DM's "always off-the-shelf" parts rule we've employed from the beginning. So, even though there was obviously a mismatch between the cylinder heads and the intake manifold, as well as a mismatch within the two manifold halves themselves, we won't take the grinder to them just yet. Besides, the torque gains we got were so impressive that this is an awesome bolt-on in anyone's book!

Dyno Testing Part 25Instead of comparing this month's test, T42, to the last test from last month as we usually do, we're comparing it to a different test from last month, T40. That's because in that test we were running locked-out ignition at 38 degrees and 91-octane gas, which is closest to how we ran things this month.

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Weiand Small Block - Pt. 25: Ramming Power

Installing the Weiand PN 1984 Hi Ram was easy. Getting the side-mounted, dual-carb linkage to work correctly was another issue. Here, we had to cut off the bottom half of both throttle arms to clear the manifold at WOT. Other than that, the rest was easy.

There was an obvious mismatch between the top and bottom halves of the Weiand Hi Ram, as well as a mismatch to the Edelbrock Victor Jr. heads. But the power and torque gains we got made the mismatch irrelevant.

We had to switch to MSD's smallest diameter distributor cap to clear the back of the Weiand Hi Ram's top.

Bob Vrbancic is getting the twin Holley HP650's to work in unison while his brother George sits out of sight, pulling the dyno's controls.

I verified DM's timing before the day's test procedures commenced. Once again this month we locked out the distributor and used MSD's PN 8977 Multi-Function Digital Controller to make DM's timing curve.

Here's the problem that was driving us nuts! The gaskets between the top and bottom halves of the Hi Ram were being sucked in, causing serious vacuum leaks. The problem turned out to be mounting bolts that were about 1/16-inch too long. Weiand says they've fixed the problem, but check yours anyways.

Who says you can't run a Hi Ram on the street. With the exception of hood clearance, everything else you'd need is right there. Including heater hose hook ups.

Holley's HP line of carbs continues to impress us and this twin HP650 setup was the prefect ticket right out of the box. We never touched them.

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When we built Danger Mouse (DM) more than a year ago, we wanted to have an engine in our stable that we could use to test and re-test every possible power combination we could think of. After more than 1,000 dyno pulls, we think we've found a few new recipes for perfection. » Read More

When we built Danger Mouse (DM) more than a year ago, we wanted to have an engine in our stable that we could use to test and re-test every possible power combination we could think of. After more than 1,000 dyno pulls, we think we've found a few new recipes for perfection. » Read More